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US20010032066A1 - Laser software control system - Google Patents

Laser software control system
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Publication number
US20010032066A1
US20010032066A1US09/791,432US79143201AUS2001032066A1US 20010032066 A1US20010032066 A1US 20010032066A1US 79143201 AUS79143201 AUS 79143201AUS 2001032066 A1US2001032066 A1US 2001032066A1
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United States
Prior art keywords
laser
processor
scheduled
laser system
command
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Granted
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US09/791,432
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US6941259B2 (en
Inventor
Gunter Nowinski
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Lambda Physik AG
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Lambda Physik AG
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Publication date
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Priority to US09/791,432priorityCriticalpatent/US6941259B2/en
Assigned to LAMBDA PHYSIK AGreassignmentLAMBDA PHYSIK AGASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS).Assignors: NOWINSKI, GUNTER
Publication of US20010032066A1publicationCriticalpatent/US20010032066A1/en
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Publication of US6941259B2publicationCriticalpatent/US6941259B2/en
Adjusted expirationlegal-statusCritical
Expired - Fee Relatedlegal-statusCriticalCurrent

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Abstract

A first software program for simulating an operating laser system controls a processor that generates one or more dummy parameters each corresponding to a parameter of an operating laser system. The dummy parameter is read over a same or similar signal interface as the operating laser system by a processor running a test software subroutine having the laser system parameter as an input. An algorithm including the test software subroutine then generates an output command based on the value of the dummy parameter. A second software program for efficiently scheduling laser service routines based on a predetermined lithography system schedule controls a processor that reads the lithography system schedule including scheduled system downtimes, wherein the scheduled downtimes include start times and durations. The processor then reads a time window and duration for each of one or more scheduled laser service routines. The processor then determines a start time for each scheduled laser service routine within the time window of the service routine, wherein the start times are selected to collectively maximize temporal overlap of the scheduled laser service routine durations and scheduled system downtime durations. A third software program including a flow control kernel controls a processor to receive a unique command from one of multiple external software control programs corresponding to a function of a laser system and input the unique command to the flow control kernel. The flow control kernel outputs a generic command that is the same for each unique input command of the multiple external software control programs corresponding to the same laser system function. The generic command or command sequence is then input to a generic control module corresponding to the laser system function.

Description

Claims (9)

What is claimed is:
1. A software program for simulating an operating laser system to be run by a processor for performing the steps of:
generating one or more dummy parameters each corresponding to a parameter of an operating laser system; and
sending a signal including data corresponding to said one or more dummy parameters over a same signal interface as the operating laser system, wherein a second processor running a test software subroutine having the laser system parameter as an input receives the signal as an input for running a software subroutine and generating an output command based on the value of the dummy parameter.
2. The program of
claim 1
, wherein said one or more dummy parameters are closely estimated to be similar values as the laser system parameter to which it corresponds would generate.
3. A software program for scheduling laser service routines based on an industrial processing system operating schedule to be run by a processor for performing the steps of:
reading the industrial processing system schedule including scheduled system uptimes and downtimes including start times and durations of said uptimes and downtimes;
reading a time window and duration for each of one or more scheduled laser service routines; and
calculating a start time for each scheduled laser service routine within the time window of the service routine, wherein the start times are selected to collectively maximize temporal overlap of the scheduled laser service routine durations and scheduled industrial processing system downtime durations.
4. The program of
claim 3
, wherein the processor performs the further step of writing a start time for each scheduled laser service routine.
5. A software program including a flow control kernel to be run by a processor for performing the steps of:
reading a command unique to one of multiple external software control programs corresponding to a function of a laser system, each of said multiple external software control programs having a unique command corresponding to the same function of the laser system;
inputting said command to the flow control kernel; and
outputting a generic command that is the same for each unique command of the multiple external software control programs.
6. The program of
claim 5
, wherein the processor performs the further step of inputting the generic command to a generic control module corresponding to the laser system function.
7. The program of any of claims5 or6, wherein the kernel includes a universal translator.
8. The program of any of claims5 or6, wherein the kernel includes a translator table.
9. The program of
claim 6
, wherein the same generic control module is used for each of said unique commands corresponding to said multiple external software control programs.
US09/791,4322000-03-012001-02-22Laser software control systemExpired - Fee RelatedUS6941259B2 (en)

Priority Applications (1)

Application NumberPriority DateFiling DateTitle
US09/791,432US6941259B2 (en)2000-03-012001-02-22Laser software control system

Applications Claiming Priority (2)

Application NumberPriority DateFiling DateTitle
US18601100P2000-03-012000-03-01
US09/791,432US6941259B2 (en)2000-03-012001-02-22Laser software control system

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US20010032066A1true US20010032066A1 (en)2001-10-18
US6941259B2 US6941259B2 (en)2005-09-06

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US09/791,432Expired - Fee RelatedUS6941259B2 (en)2000-03-012001-02-22Laser software control system

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
CN102737142A (en)*2011-03-312012-10-17通用汽车环球科技运作有限责任公司Control software with programmable arrays that are configurable for vehicles having different propulsion system configurations

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US6081542A (en)*1998-06-122000-06-27Lambda Physik GmbhOptically pumped laser with multi-facet gain medium
US6151346A (en)*1997-12-152000-11-21Cymer, Inc.High pulse rate pulse power system with fast rise time and low current
US6157662A (en)*1999-02-122000-12-05Lambda Physik GmbhF2 (157nm) laser employing neon as the buffer gas
US6160832A (en)*1998-06-012000-12-12Lambda Physik GmbhMethod and apparatus for wavelength calibration
US6160831A (en)*1998-10-262000-12-12Lambda Physik GmbhWavelength calibration tool for narrow band excimer lasers
US20010020195A1 (en)*2000-02-162001-09-06Patel Parthiv S.Process monitoring system for lithography lasers
US6324196B1 (en)*1999-03-172001-11-27Lambda Physik AgDiagnosis of the trigger chain of a pulsed laser
US6700916B1 (en)*2001-09-262004-03-02Lambda Physik AgE-diagnostic, laser simulator, automated testing and deconvolution of spectra for lithographic exposure radiation generating systems such as excimer or molecular fluorine laser or EUV source systems

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* Cited by examiner, † Cited by third party
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DE3842492C2 (en)1988-12-162001-05-03Lambda Physik Forschung Control circuit for a pulsed laser
DE29822090U1 (en)1998-12-101999-02-11Lambda Physik Gesellschaft zur Herstellung von Lasern mbH, 37079 Göttingen Laser for generating narrow-band radiation

Patent Citations (46)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US4393505A (en)*1978-07-241983-07-12Gte Sylvania IncorporatedGas discharge laser having a buffer gas of neon
US4399540A (en)*1979-05-101983-08-16Lamba Physik Gesellschaft Zur Herstellung Von Lasern Mbh & Co. KgTunable laser oscillator
US4856018A (en)*1986-01-221989-08-08Kabushiki Kaisha Komatsu SeisakushoLight source for reduced projection
US4829536A (en)*1986-06-091989-05-09Kabushiki Kaisha Komatsu SeisakushoMulti-mode narrow-band oscillation excimer laser
US4975919A (en)*1987-03-191990-12-04Kabushiki Kaisha Komatsu SeisakushoLaser wavelength control apparatus
US4860300A (en)*1987-06-031989-08-22Lambda Physik Forschungs- Und Entwicklungsgesellschaft MbElectrode for pulsed gas lasers
US4905243A (en)*1987-12-281990-02-27Lambda Physik Forschungs-Und Entwicklungs-GmbhMethod and apparatus for stabilizing the frequency of a laser beam
US5142543A (en)*1988-01-271992-08-25Kabushiki Kaisha Komatsu SeisakushoMethod and system for controlling narrow-band oscillation excimer laser
US4977573A (en)*1989-03-091990-12-11Questek, Inc.Excimer laser output control device
US5596596A (en)*1989-05-181997-01-21Kabushiki Kaisha Komatsu SeisakushoNarrow band excimer laser
US5150370A (en)*1989-06-141992-09-22Matsushita Electric Industrial Co., Ltd.Narrow-band laser apparatus
US5404366A (en)*1989-07-141995-04-04Kabushiki Kaisha Komatsu SeisakushoNarrow band excimer laser and wavelength detecting apparatus
US5226050A (en)*1990-01-251993-07-06Lambda Physik Forschungs - Und Entwicklungsgesellschaft - GmbhSmall line width tunable laser
US5095492A (en)*1990-07-171992-03-10Cymer Laser TechnologiesSpectral narrowing technique
US5247531A (en)*1991-03-151993-09-21Lambda Physik Forschungsgesellschaft MbhApparatus for preionizing apulsed gas laser
US5396514A (en)*1992-03-041995-03-07Lamba Physik Gesellschaft Zur Herstelling Von Lasern MbhExcimer laser comprising a gas reservoir and a collecting receptacle and a method of refilling the gas reservoir of the laser with halogen gas
US5729565A (en)*1993-10-141998-03-17Lambda Physik Gesellschaft Zur Herstellung Von Lasern MbhDischarge unit and electrode for a pulsed discharge laser
US5659419A (en)*1994-08-231997-08-19Lambda Physik Gesellschaft Zur Herstellung Von Lasern MbhTunable narrowband optical parametrical oscillator
US5559816A (en)*1994-10-261996-09-24Lambda Physik Gesellschaft Zur Herstellung Von Lasern MbhNarrow-band laser apparatus
US5684822A (en)*1994-11-171997-11-04Cymer, Inc.Laser system with anamorphic confocal unstable resonator
US5761236A (en)*1996-02-011998-06-02Lambda Physik Gesellschaft Zur Herstellung Von Lasern MbhLaser for generating narrow-band radiation
US5646954A (en)*1996-02-121997-07-08Cymer, Inc.Maintenance strategy control system and monitoring method for gas discharge lasers
US5663973A (en)*1996-05-141997-09-02Lambda Physik Gesellschaft Zur Herstellung Von Lasern MbhTunable narrowband source of a coherent radiation
US5999318A (en)*1997-01-171999-12-07Cymer, Inc.Reflective overcoat for replicated diffraction gratings
US5898725A (en)*1997-01-211999-04-27Cymer, Inc.Excimer laser with greater spectral bandwidth and beam stability
US6020723A (en)*1997-02-142000-02-01Lambada Physik GmbhMagnetic switch controlled power supply isolator and thyristor commutating circuit
US6005880A (en)*1997-02-141999-12-21Lambda Physik GmbhPrecision variable delay using saturable inductors
US5835520A (en)*1997-04-231998-11-10Cymer, Inc.Very narrow band KrF laser
US5818865A (en)*1997-05-161998-10-06Cymer, Inc.Compact excimer laser insulator with integral pre-ionizer
US5856991A (en)*1997-06-041999-01-05Cymer, Inc.Very narrow band laser
US5901163A (en)*1997-06-041999-05-04Cymer, Inc.Narrow band laser with etalon based output coupler
US5970082A (en)*1997-06-041999-10-19Cymer, Inc.Very narrow band laser
US5917849A (en)*1997-09-101999-06-29Cymer, Inc.Line narrowing device with double duty grating
US5852627A (en)*1997-09-101998-12-22Cymer, Inc.Laser with line narrowing output coupler
US6151346A (en)*1997-12-152000-11-21Cymer, Inc.High pulse rate pulse power system with fast rise time and low current
US6016325A (en)*1998-04-272000-01-18Cymer, Inc.Magnetic modulator voltage and temperature timing compensation circuit
US5946337A (en)*1998-04-291999-08-31Lambda Physik GmbhHybrid laser resonator with special line narrowing
US6061382A (en)*1998-05-042000-05-09Lambda Physik GmbhLaser system and method for narrow spectral linewidth through wavefront curvature compensation
US6160832A (en)*1998-06-012000-12-12Lambda Physik GmbhMethod and apparatus for wavelength calibration
US6081542A (en)*1998-06-122000-06-27Lambda Physik GmbhOptically pumped laser with multi-facet gain medium
US5978409A (en)*1998-09-281999-11-02Cymer, Inc.Line narrowing apparatus with high transparency prism beam expander
US6160831A (en)*1998-10-262000-12-12Lambda Physik GmbhWavelength calibration tool for narrow band excimer lasers
US6157662A (en)*1999-02-122000-12-05Lambda Physik GmbhF2 (157nm) laser employing neon as the buffer gas
US6324196B1 (en)*1999-03-172001-11-27Lambda Physik AgDiagnosis of the trigger chain of a pulsed laser
US20010020195A1 (en)*2000-02-162001-09-06Patel Parthiv S.Process monitoring system for lithography lasers
US6700916B1 (en)*2001-09-262004-03-02Lambda Physik AgE-diagnostic, laser simulator, automated testing and deconvolution of spectra for lithographic exposure radiation generating systems such as excimer or molecular fluorine laser or EUV source systems

Cited By (2)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
CN102737142A (en)*2011-03-312012-10-17通用汽车环球科技运作有限责任公司Control software with programmable arrays that are configurable for vehicles having different propulsion system configurations
US9104443B2 (en)2011-03-312015-08-11GM Global Technology Operations LLCControl software with programmable arrays that are configurable for vehicles having different propulsion system configurations

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Legal Events

DateCodeTitleDescription
ASAssignment

Owner name:LAMBDA PHYSIK AG, GERMANY

Free format text:ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:NOWINSKI, GUNTER;REEL/FRAME:011908/0085

Effective date:20010330

REMIMaintenance fee reminder mailed
LAPSLapse for failure to pay maintenance fees
STCHInformation on status: patent discontinuation

Free format text:PATENT EXPIRED DUE TO NONPAYMENT OF MAINTENANCE FEES UNDER 37 CFR 1.362

FPExpired due to failure to pay maintenance fee

Effective date:20090906


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